RU2597374C2 - Valuable document, protected from forgery, and method of determining authenticity thereof - Google Patents

Abstract

FIELD: printing.

SUBSTANCE: invention relates to printed materials of special purpose and relates to multilayer valuable document, protected from forgery, and method of determining its authenticity. Document includes at least on one of its layers at least two different graphic figures with non-coloured imaginary points in areas, such as centres, and/or focal points, and/or focal planes, and/or centres of mass, and/or asymptotes, and/or attractors, determined by equations of selected figures at mutual location and/or spatial distribution of visual display of said points on surface of document, in a conditional order in form of its shape, and/or a word, and/or image, wherein locus of every figure lies on one common line or figure and is a code for subsequent analysis. Method involves photographing or scanning a valuable document, mathematical processing of image, identifying geometric areas of imaginary points, calculation of relationship between them and authentication of a valuable document provided spatial coordinates of calculated imaginary points are found in a given range of values.

EFFECT: invention provides a method of protection and method of authenticating bond paper made by means of domestic photo printers.

12 cl, 4 dwg, 2 ex

Description

The claimed decision relates to the production of securities with the protection and production of valuable documents, such as banknotes, excise stamps, identification documents and plastic cards containing elements for protection against counterfeiting. The solution is aimed at solving the problem of determining the authenticity of protected documents, including for determining their partial falsification by compiling a new document from two or more parts of other documents.

There is constantly a need for simple methods for determining the authenticity of banknotes and other valuable documents, such as tickets and excise stamps, using simple technical means available to the public in terms of circulation. Special devices for authenticating valuable documents are usually expensive and not universal, that is, there is no one device for all occasions. In addition, ordinary people always do not have them “at hand” at the right time.

Therefore, technical means (“gadgets”) that people always carry with them are of particular interest for express authentication. In recent years, advanced models of cell phones (smartphones) are increasingly being considered as such devices.

In connection with the development of inkjet printing technology on the one hand and the capabilities of handheld (portable) compact electronic devices (smartphones), on the other hand, the need arose to develop simple and reliable methods of protection and authentication methods of banknotes and other valuable documents from counterfeits made using household inkjet photo printers.

When developing such methods and methods, it should also be borne in mind that the visual image of banknotes and valuable documents is easily accessible to the counterfeiter, and they can be scanned without the need for significant time on ordinary flat-panel office scanners with a resolution sufficient for fabricating falsifications.

The emerging technical solutions based on the use of smartphones for the recognition of counterfeit banknotes (for example, the PHONEY project of the central bank of the Netherlands) are mainly based on the use of graphic features of metallographic (relief) printing, as well as the features of combining offset and metallographic printing on banknotes. After studying the features of the decision-making algorithm, the fraudsters are likely to be able to adapt their falsification technology to this recognition method.

The prior art solutions are widely known, proposed to control the authenticity of valuable documents and banknotes using the analysis of the graphic image.

The most famous of these solutions include the development of Omron Corporation (Japan), published in US 6289125 B1. This solution discloses an image processing apparatus and method intended for use as part of color copiers and other image processing devices based on reading and recognizing specially applied documents, such as a banknote, of graphic marks, preferably made in yellow and therefore hardly visible to the human eye against the background of other colors.

This decision is mainly aimed at creating obstacles for the color copying of banknotes using copy and copying equipment.

There is a known solution RU 2318676 C1, which describes a valuable document that is protected from forgery using graphic images that contain specially made additional coded elements - tags intended for instrument reading and authentication.

This solution is based on the use of visually distinguishable (that is, colored) code marks entered in the main image, and therefore, with the development of the resolution of copying devices, this type of protection of the authenticity of valuable documents will not be able to provide reliable protection against copying.

The prior art also knows the solution RU 2477522 Cl, based on applying to a valuable document a complex printed image with a spread of the parameters of individual sections (image points, code), unique for each document and method (device) for reading this code. In general, the disadvantages of this solution are similar to those described above.

Finally, the decision WO 2001008405 A1 is known, 02/01/2001, describing a method for creating a valuable document, which is based on the introduction of special patterns made with high resolution in the original image of the valuable document. This solution is also intended for automated determination of the authenticity of a valuable document.

The disadvantages of this solution are also the use of changes in the optical density of the image and, as a consequence, the potential availability for playback as a fake, and promising copiers.

The proposed technical solution is based on the principle of combining imaginary points of various images, such as geometric centers, tricks or attractors located on different parts of the document or on different sides of the document and observed in reflection or in transparency.

The technical result is achieved by the fact that on the surface of the product on one or both sides are applied images of figures having imaginary points that are not painted with paint, but are in strict mathematical dependence with the geometrical location of the points of the main (colored) image, while the imaginary points of different figures coincide or, in turn, form a given dependence.

Under the imaginary points hereinafter we will call such (unpainted) points of geometric figures that are not directly part of their image or the image forming their contour, but can be accurately calculated based on the analysis of the shape of the figure or its contour. Such points (the locus of points) in a particular case can be geometric centers, foci, focal planes, centers of mass, asymptotes, attractors.

A feature of the claimed solution is that the directly colored images themselves, the imaginary points of which are used to search for the given dependencies, do not have visually distinguishable (visible to the observer) relationships and in a particular case they may even not have real intersection points.

The essence of the claimed solution lies in the fact that a valuable document protected from forgery contains at least on one of its sides at least two different color graphic figures of the same or different color, defined in the international color system CIE Lab, containing unpainted imaginary dots or curved lines , in places such as centers and / or foci and / or focal planes and / or centers of mass and / or asymptotes and / or attractors whose color error relative to the document substrate is not more than AE = 2 in the same flowers th system, defined by equations of the form y = f (x), where x, y are the spatial coordinates on the plane coinciding with the plane of the valuable document and related to mathematical equations describing the shape and location of the indicated graphic figures on the plane given by the mathematical dependence, and for to control the authenticity of a document, these points or curved lines of both considered graphic elements must coincide or lie in a given range of spatial coordinates relative to each other, defined x with an error of not more than 50 microns.

A valuable document can be such products as: banknote, excise stamp, postage stamp, passport, travel document, driver's license, identity card, security paper, plastic card, label, packaging, payment document.

In special cases of the invention, graphic security elements can be made in the form of geometric figures, guilloche elements, graphic and alphanumeric characters that form an encoding or represent any combination of all of the above.

Graphic elements can be performed by the printing method with inks having the same or different absorption in the IR range of the optical spectrum, as well as having luminescence in the visible range of the spectrum under the influence of UV or IR radiation. Graphic elements can be applied on opposite sides of the document, while authentication is carried out in transmitted light.

In the area of the location of the graphic security elements, a surface area can be fully or partially located that is transparent when observed in the light, or an additional latent image visible in the light or when tilted.

A valuable document may include an additional graphic element with an image representing information for identification and / or a photograph for identification.

The solution is also characterized by a method for determining the authenticity of a valuable document, which consists in photographing a valuable document using a digital camera, mathematically processing the image, identifying the geometrical places of imaginary points, calculating the relationship between them and establishing the authenticity of a valuable document, provided that the spatial coordinates of the calculated imaginary points are in a given range of values .

The method of determining the authenticity in accordance with the invention can be carried out by scanning a valuable document using a digital scanner, transferring the received image to a personal computer, mathematically processing the image using special software, identifying imaginary points of geometries, calculating the relationship between them and establishing the authenticity of the valuable document subject to the spatial coordinates of the calculated imaginary points in a given range of values taking into account the spatial error of the scanner.

This solution allows automated verification of the authenticity of a valuable document using affordable electronic devices equipped with a camera, such as smartphones.

Example 1

(According to paragraph 1 of the formula with signs according to dependent paragraphs 2, 4 and 5).

A valuable document in the form of a banknote is printed using the offset printing method and contains graphic elements in the form of ellipses printed on red, blue and gray inks on the front side.

Each of the ellipses is described in Cartesian coordinates by the mathematical formula:

where a and b are respectively the major and minor axes of the ellipse of each type presented.

Each ellipse has two imaginary points (tricks 1 and 2), not painted in any color, but associated with the generatrix of the ellipse by the reduced mathematical dependence (1).

Ellipses are arranged in such a way that at least one of the tricks of each ellipse lies on a common straight line connecting them.

When carrying out geometric constructions, it is possible to verify that the geometric places of the points of one of the foci of each ellipse lie on a common straight line, which indicates the production of print from the original printing forms, and therefore, the authenticity of the banknote.

Banknote authentication can be carried out in semi-automatic mode, using a household smartphone with special software equipped with a camera. When photographing a banknote and the subsequent mathematical processing of the resulting image, the smartphone software will automatically detect the indicated dependence and make a conclusion about the authenticity of the banknote.

Thus, it is obvious that the technical result is achieved according to the first embodiment of the invention by applying graphic security elements containing imaginary points described by predetermined mathematical dependencies and combined with similar points of other images to protect a valuable document in accordance with a given law or distribution.

Example 2

(According to paragraph 1 of the formula, with signs according to dependent paragraphs 2, 3, 4, 5)

A valuable document in the form of a banknote is printed by the Simultan simultaneous two-sided offset printing and contains on the front side a graphic element in the form of an ellipse printed in red ink and described in Cartesian coordinates by the mathematical formula:

where a and b are the major and minor semiaxes of the ellipse, respectively.

This ellipse has two imaginary points (tricks C and D) that are not colored in any color, but are connected with the generatrix of the ellipse by a given mathematical dependence (1).

The second ellipse is printed on the reverse side of the banknote by offset printing using gray ink, which also has two foci E and F connected by a given mathematical dependence with the generatrix of the ellipse.

When examining the transparency label, it is possible to verify that the geometric locations of the points for one of the foci of the ellipse of the front side and one of the foci of the ellipse of the reverse side coincide, but there is no direct image at these points, which indicates the authenticity of the label.

This comparison can be done in semi-automatic mode, using a household smartphone with special software equipped with a camera. When photographing banknotes in the light, the smartphone software will automatically detect the indicated dependencies and make a conclusion about the authenticity of the banknote.

Thus, it is obvious that the technical result is achieved, according to the first embodiment of the invention, by applying graphic security elements containing imaginary points described by given mathematical dependencies and combined at these points with each other to protect a valuable document.

Claims (12)

1. A valuable document protected from falsification, characterized in that it contains at least on one of its sides at least two different color graphic figures of the same or different color, defined in the CIE Lab international color system, containing unpainted imaginary dots or curved lines, in places, such as centers, and / or foci, and / or focal planes, and / or centers of mass, and / or asymptotes, and / or attractors, the color error of which relative to the document substrate is not more than ΔE = 2 in the same color system defined by equations of the form y = f (x), where x, y are the spatial coordinates on the plane coinciding with the plane of the valuable document, and associated with mathematical equations describing the shape and location of the indicated graphic figures on the plane given by the mathematical dependence, and when checking the authenticity of the document points or curved lines of both considered graphic elements must coincide or lie in a given range of spatial coordinates relative to each other, determined with an error of no more 50 microns. 2. A valuable document according to claim 1, characterized in that the graphic elements are made with paints having the same or different absorption in the infrared range of the optical spectrum. 3. Valuable document according to any one of paragraphs. 1, 2, characterized in that the graphic elements are made with paints having luminescence in the visible range of the spectrum under the influence of UV or IR radiation. 4. Valuable document according to any one of paragraphs. 1, 2, characterized in that it consists of a banknote, excise stamp, postage stamp, passport, travel document, driver’s license, identification card, security paper, plastic card, label, packaging, payment document. 5. A valuable document according to claim 1, characterized in that the graphic elements are applied on opposite sides of the document, while authenticity is controlled in transmitted light. 6. Valuable document according to claim 1, characterized in that the graphic elements are made by the printing method. 7. Valuable document according to claim 1, characterized in that the graphic security elements are made in the form of geometric figures, guilloche elements, graphic and alphanumeric characters, form an encoding or represent any combination of all of the above. 8. Valuable document according to any one of paragraphs. 1, 2, characterized in that it contains an additional graphic element with an image representing information for identification and / or a photo for identification. 9. Valuable document according to any one of paragraphs. 1, 2, characterized in that in the region where the graphic protective elements are located, the surface region is completely or partially located, which is transparent when observed in the light. 10. Valuable document according to any one of paragraphs. 1, 2, characterized in that in the region where the graphic security elements are located, an additional latent image is visible in full or in part, visible in light or when tilted. 11. A method for determining the authenticity of a multilayer valuable document according to any one of paragraphs. 1-10, which consists in photographing a valuable document using a digital camera, mathematical image processing, identifying the geometrical places of imaginary points, calculating the relationship between them and establishing the authenticity of a valuable document, provided that the spatial coordinates of the calculated imaginary points in a given range of values, taking into account the spatial error of the camera . 12. A method for determining the authenticity of a multilayer valuable document according to any one of paragraphs. 1-10, which consists in scanning a valuable document using a digital scanner, transferring the resulting image to a personal computer, mathematically processing the image using special software, identifying the imaginary points of the geometries, calculating the relationship between them and establishing the authenticity of the valuable document, provided that the spatial coordinates are found calculated imaginary points in a given range of values, taking into account the spatial error of the scanner.

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